G. F. Missiroli, G. Pozzi, and U. Valdre, Electron interferometry and interference electron microscopy, Journal of Physics E: Scientific Instruments, vol.14, issue.6, pp.649-671, 1981.

H. Rauch, S. Werner, and J. Schmiedmayer, A review of: ?Neutron interferometry: Lessons in experimental quantum mechanics, by Helmut Rauch and Samuel Werner, Oxford University Press, © 2000?, Neutron News, vol.12, issue.4, pp.44-45, 2001.

A. D. Cronin, J. Schmiedmayer, and D. E. Pritchard, Optics and interferometry with atoms and molecules, Reviews of Modern Physics, vol.81, issue.3, pp.1051-1129, 2009.

E. Rafal, M. R. Dunin-borkowski, R. B. Mccartney, D. A. Frankel, M. Bazylinski et al., Magnetic microstructure of magnetotactic bacteria by electron holography, Science, vol.282, pp.1868-1870, 1998.

M. Arndt, N. Drre, S. Eibenberger, P. Haslinger, J. Rodewald et al., Matter-wave interferometry with composite quantum objects, 2015.

H. Abele and H. Leeb, Gravitation and quantum interference experiments with neutrons, New Journal of Physics, vol.14, issue.5, p.055010, 2012.

R. Geiger, A. Landragin, S. Merlet, and F. Pereira-dos-santos, High-accuracy inertial measurements with cold-atom sensors, AVS Quantum Science, vol.2, issue.2, p.024702, 2020.
URL : https://hal.archives-ouvertes.fr/hal-02550187

J. F. Clauser, Ultra-high sensitivity accelerometers and gyroscopes using neutral atom matter-wave interferometry, Physica B+C, vol.151, issue.1-2, pp.262-272, 1988.

J. M. Mcguirk, G. T. Foster, J. B. Fixler, M. J. Snadden, and M. A. Kasevich, Sensitive absolute-gravity gradiometry using atom interferometry, Physical Review A, vol.65, issue.3, 2002.

H. Y. Carr and E. M. Purcell, Effects of Diffusion on Free Precession in Nuclear Magnetic Resonance Experiments, Physical Review, vol.94, issue.3, pp.630-638, 1954.

J. K. Stockton, K. Takase, and M. A. Kasevich, Absolute Geodetic Rotation Measurement Using Atom Interferometry, Physical Review Letters, vol.107, issue.13, 2011.

B. Dubetsky and M. A. Kasevich, Atom interferometer as a selective sensor of rotation or gravity, Physical Review A, vol.74, issue.2, p.23615, 2006.

I. Dutta, D. Savoie, B. Fang, B. Venon, C. L. Garrido-alzar et al., Continuous Cold-Atom Inertial Sensor with1 nrad/secRotation Stability, Physical Review Letters, vol.116, issue.18, 2016.

D. Savoie, M. Altorio, B. Fang, L. A. Sidorenkov, R. Geiger et al., Interleaved atom interferometry for high-sensitivity inertial measurements, Science Advances, vol.4, issue.12, p.eaau7948, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01876357

M. Kasevich and S. Chu, Atomic interferometry using stimulated Raman transitions, Physical Review Letters, vol.67, issue.2, pp.181-184, 1991.

.. J. Ch and . Bordé, Atomic interferometry with internal state labelling, Physics Letters A, vol.140, pp.10-12, 1989.

M. Altorio, L. A. Sidorenkov, R. Gautier, D. Savoie, A. Landragin et al., Accurate trajectory alignment in cold-atom interferometers with separated laser beams, Physical Review A, vol.101, issue.3, p.33606, 2020.
URL : https://hal.archives-ouvertes.fr/hal-02458687

B. Dubetsky, Mach-Zehnder atom interferometry

A. Roura, Circumventing Heisenberg?s Uncertainty Principle in Atom Interferometry Tests of the Equivalence Principle, Physical Review Letters, vol.118, issue.16, p.160401, 2017.

G. D?amico, G. Rosi, S. Zhan, L. Cacciapuoti, M. Fattori et al., Canceling the Gravity Gradient Phase Shift in Atom Interferometry, Physical Review Letters, vol.119, issue.25, p.253201, 2017.

C. Overstreet, P. Asenbaum, T. Kovachy, R. Notermans, J. M. Hogan et al., Effective Inertial Frame in an Atom Interferometric Test of the Equivalence Principle, Physical Review Letters, vol.120, issue.18, p.183604, 2018.

R. Caldani, K. X. Weng, S. Merlet, and F. Pereira-dos-santos, Simultaneous accurate determination of both gravity and its vertical gradient, Physical Review A, vol.99, issue.3, p.33601, 2019.
URL : https://hal.archives-ouvertes.fr/hal-01962936

.. J. Ch, C. Bordé, S. Salomon, A. Avrillier, C. Van-lerberghe et al., Optical ramsey fringes with traveling waves, Phys. Rev. A, vol.30, pp.1836-1848, 1984.

O. Y. Kwon and D. M. Shough, Multichannel Grating Phase-Shift Interferometers, Optics in Engineering Measurement, pp.double-loop interferometer, 1986.

C. Hadziioannou, P. Gaebler, U. Schreiber, J. Wassermann, and H. Igel, Examining ambient noise using colocated measurements of rotational and translational motion, Journal of Seismology, vol.16, issue.4, pp.787-796, 2012.

I. Perrin, Y. Bidel, N. Zahzam, C. Blanchard, A. Bresson et al., Proof-of-principle demonstration of vertical-gravity-gradient measurement using a single-proof-mass double-loop atom interferometer, Physical Review A, vol.99, issue.1, p.13601, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02053264

B. Canuel, F. Leduc, D. Holleville, A. Gauguet, J. Fils et al., Six-Axis Inertial Sensor Using Cold-Atom Interferometry, Physical Review Letters, vol.97, issue.1, p.10402, 2006.

J. M. Hogan, D. M. Johnson, S. Dickerson, T. Kovachy, A. Sugarbaker et al., An atomic gravitational wave interferometric sensor in low earth orbit (AGIS-LEO), General Relativity and Gravitation, vol.43, issue.7, pp.1953-2009, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00517602

P. W. Graham, J. M. Hogan, M. A. Kasevich, and S. Rajendran, Resonant mode for gravitational wave detectors based on atom interferometry, Physical Review D, vol.94, issue.10, p.104022, 2016.

B. Canuel, A. Bertoldi, L. Amand, E. Pozzo-di-borgo, T. Chantrait et al., Exploring gravity with the MIGA large scale atom interferometer, Scientific Reports, vol.8, issue.1, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01874243

, Figure 6: Complexity curves for whitened data (dashed lines), not whitened data (solid lines) and ICA-transformed data (dotted lines).

P. Wolf, L. Blanchet, C. J. Bordé, S. Reynaud, C. Salomon et al., Does an atom interferometer test the gravitational redshift at the Compton frequency?, Classical and Quantum Gravity, vol.28, issue.14, p.145017, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00719841

P. Storey and C. Cohen-tannoudji, The Feynman path integral approach to atomic interferometry. A tutorial, Journal de Physique II, vol.4, issue.11, pp.1999-2027, 1994.
URL : https://hal.archives-ouvertes.fr/jpa-00248106

D. Johnson, Very Long Baseline Interferometry

. Ch, C. J. Antoine, and . Bordé, Quantum theory of atomic clocks and gravito-inertial sensors: an update, Journal of Optics B: Quantum and Semiclassical Optics, vol.5, pp.199-207, 2003.

P. Cheinet, B. Canuel, F. Pereira-dos-santos, A. Gauguet, F. Yver-leduc et al., Measurement of the Sensitivity Function in a Time-Domain Atomic Interferometer, IEEE Transactions on Instrumentation and Measurement, vol.57, issue.6, pp.1141-1148, 2008.